TNV6U210

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SKU2016175
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Huawei OptiX OSN 9800 TNV6U210 10 x 10 G Universal Line Service Processing Board(SFP+,OTN & SDH & Packet)

Description

TNV6U210 overview

 

TNV6U210 10 x 10 G Universal Line Service Processing Board(SFP+,OTN & SDH & Packet) applied to Huawei OptiX OSN 9800 U64/U32/M24.

To meet ultra-large cross-connect capacity and bandwidth requirements, Huawei presents the OptiX OSN 9800 product series. The OptiX OSN 9800 product series include the OptiX OSN 9800 U64, U32, P18 and universal platform subracks. Applied at the electrical layer, the OptiX OSN 9800 U64 and U32 subracks share boards by using unified software and hardware platforms, and can work with the OptiX OSN 9800 universal platform subrack and P18 subrack, OptiX OSN 8800 platform subrack and T16 subrack, and OptiX OSN 6800 optical subracks in WDM and OTN systems.

The TNV6U210 board has only one variant: TNV6U210S01.

 

 

Front panel of the TNV6U210 board

TNV6U210

Front panel of the TNV6U210 board

 

Valid slots for the TNV6U210 board in a U64/U32/M24 subrack

Device Number of Occupied Slots Physical Slot Logical Slot
OptiX OSN 9800 M24 2 (IU1, IU13), (IU2, IU14), ……, (IU11, IU23), (IU12, IU24) IU1 to IU12
OptiX OSN 9800 U32 Enhanced 1 IU1 to IU32 IU1 to IU32
OptiX OSN 9800 U32 Standard 1 IU1 to IU32 IU1 to IU32
OptiX OSN 9800 U64 Enhanced 1 IU1 to IU64 IU1 to IU64
OptiX OSN 9800 U64 Standard 1 IU1 to IU64 IU1 to IU64

 

Item TNV6U210
Functions and Features of the TNV6U210 Board (OTN Line)
Backplane capacity The total backplane bandwidth is 100 Gbit/s.
WDM specification Supports the DWDM specifications.
Tunable wavelength
  • Supports tunable wavelength optical modules that provide for 40 wavelengths tunable in the C band with 100 GHz channel spacing.
  • Supports tunable wavelength optical modules that provide for 80 wavelengths tunable in the C band with 50 GHz channel spacing.
FEC coding FEC, AFEC-2
NOTE:
AFEC-2 encoding is supported only when the board works in OTU2 mode.
Line modulation format NRZ
OTN overhead protocol Supports the OTN frame format and overhead processing defined by ITU-T G.709.
OTN overhead
  • WDM-side OTU2 layer: supports SM overhead processing.
  • ODUk (k=0, 1, 2) layer: supports PM and TCM overhead processing.
  • ODUk (k=0, 1, 2) layer: supports non-intrusive monitoring of PM and TCM overheads.
  • ODUflex layer: supports PM overhead processing.
  • ODUflex layer: supports non-intrusive monitoring of PM overheads.
Intra-board 1+1 protection Supported
NOTE:
Supports intra-board 1+1 protection when working with optical protection boards.
ODUk SNCP Supported
NOTE:
ODUk SNCP protection is not supported when packet services are cross-connected from the backplane.
Tributary SNCP Supported
Electrical-layer ASON Supported
Optical-layer ASON Supported
Physical clock Supported
NOTE:
  • When the ODU cross-connect granularity of an OTN line port is set to the maximum granularity supported by the port, physical clock synchronization is not supported. The physical clock can be used only after lower-order ODU cross-connections are configured.
  • When Board Working Mode is Line OTU2 Mode, parameter Frame Format of Clock Message of port 1 is GFP by default, and this parameter of other ports is HDLC by default. By default, only port 1 supports physical clocks. To enable other ports to support physical clocks, set this parameter of port 1 to HDLC first.
  • When Board Working Mode is Line OTU2 Mode, parameter Frame Format of Clock Message of port 1 is GFP by default, and this parameter of other ports is HDLC by default. By default, only port 1 supports physical clocks. To enable other ports to support physical clocks, set this parameter of port 1 to HDLC first.
  • Parameter Frame Format of Clock Message can be set to HDLC but not GFP for OTU1 services.
IEEE 1588v2 Supported
NOTE:
  • When Board Working Mode is Line OTU2 Mode, parameter Frame Format of Clock Message of port 1 is GFP by default, and this parameter of other ports is HDLC by default. By default, only port 1 supports IEEE 1588v2. To enable other ports to support IEEE 1588v2, set this parameter of port 1 to HDLC first.
  • Parameter Frame Format of Clock Message can be set to GFP or HDLC for OTU2 services. If the parameter of a port on the board is set to GFP, only the current port supports one IEEE 1588v2 channel, and other ports do not support IEEE 1588v2. If the parameter of all ports on the board is set to HDLC, a maximum of four IEEE 1588v2 channels are supported.
  • Parameter Frame Format of Clock Message can be set to HDLC but not GFP for OTU1 services, and a maximum of four IEEE 1588v2 channels are supported.
ITU-T G.8275.1 Supported
NOTE:
  • When Board Working Mode is Line OTU2 Mode, parameter Frame Format of Clock Message of port 1 is GFP by default, and this parameter of other ports is HDLC by default. By default, only port 1 supports G.8275.1. To enable other ports to support G.8275.1, set this parameter of port 1 to HDLC first.
  • Parameter Frame Format of Clock Message can be set to GFP or HDLC for OTU2 services. If the parameter of a port on the board is set to GFP, only the current port supports one G.8275.1 channel, and other ports do not support G.8275.1. If the parameter of all ports on the board is set to HDLC, a maximum of four G.8275.1 channels are supported.
  • Parameter Frame Format of Clock Message can be set to HDLC but not GFP for OTU1 services, and a maximum of four G.8275.1 channels are supported.
ITU-T G.8273.2 Supported
NOTE:
The board does not support ITU-T G.8273.2 when the system control board is U2CTU.
Outband DCN Supports communication over ESCs.
Test frame Not supported
PRBS Supports the PRBS function on the WDM side.
Latency measurement Supported
NOTE:
In 2.5G line mode, delay measurement cannot be configured for different optical ports on the same board at the same time. In 10G line mode, delay measurement can be configured for different optical ports on the same board at the same time.
Channel loopback
  • 10G line mode: ODUk (k = 0, 1, flex) channel loopbacks
  • 2.5G line mode: ODUk (k = 0) channel loopbacks
Port loopback Supports WDM Side Loopback
Alarm and performance event monitoring
  • Supports the monitoring of BIP8 bytes (Bursty mode) to help locate line failures.
  • Monitors parameters such as the bias current, temperature, and optical power of the laser.
  • Monitors OTN alarms and performance events.
Functions and Features of the TNV6U210 Board (SDH)
Backplane capacity The total backplane bandwidth is 80 Gbit/s.
Service processing VC-12, VC-3, VC-4, VC-4-4c, VC-4-16c, VC-4-64c
Overhead processing
  • Processes the section overheads of STM-16/STM-64 signals.
  • Supports the transparent transmission and termination of path overheads.
  • Supports the setting and query of the J0, J1, and C2 bytes.
  • Supports transparent transmission of DCC channels.
  • Supports ECC communication.
SDH SNCP Supported
Linear MSP Supported
Ring MSP Supports two-fiber bidirectional ring MSP
SDH ASON Supported
Physical clock Supports SDH clock synchronization.
Outband DCN Supported
Channel loopback Supports VC loopbacks.
Port loopback Supports Virtual Port loopbacks.
2M ASON Supported
NOTE:
Only supported when the 9800 M24 is used.
Alarm and performance event monitoring
  • Supports the monitoring of B1 bytes to help locate line faults.
  • Supports the monitoring of B2 bytes to help locate line faults.
Functions and Features of the TNV6U210 Board (Packet)
Service processing capability
  • 10G line mode: The maximum service processing capability of the board is 100 Gbit/s. If the total bandwidth of received services is greater than 100 Gbit/s, packets will be lost.
  • 2.5G line mode: The maximum service processing capability of the board is 25 Gbit/s. If the total bandwidth of received services is greater than 25 Gbit/s, packets will be lost.
TAG attribute Supports the following TAG attributes: tag aware, access, and hybrid.
QinQ Supports basic QinQ.
Ethernet data frame format IEEE 802.3, Ethernet II, IEEE 802.1Q, IEEE 802.1p
Maximum frame length for a port 9600 bytes.
Service type
  • Native E-Line services
  • Native E-LAN services
  • E-Line services carried by PWs (VPWS services)
  • E-LAN services carried by PWs (VPLS services)
Service bearing medium PW, QinQ
Native E-Line service type
  • Point-to-point transparently transmitted E-Line services
  • VLAN-based E-Line services (supporting VLAN tag switching)
  • QinQ-based E-Line services
Native E-LAN service type
  • E-LAN services based on Tag-Transparent (802.1d bridge)
  • E-LAN services based on C-Aware (802.1q bridge)
PW-carried E-Line service (VPWS) type
  • Port-based transparently transmitted E-Line services
  • VLAN-based E-Line services (supporting the adding, deleting, and switching of VLAN tags)
PW-carried E-LAN service (VPLS) type
  • VPLS services based on Tag-Transparent
  • VPLS services based on C-Aware
  • VPLS services based on S-Aware
MS-PW Supported
Diffserv Supported, compliant with RFC 2474 and RFC 2475.
Traffic classification
  • Supported simple traffic classification.
  • Supported complex traffic classification. The ACL rules are customized based on packet information.
Traffic policing Committed access rate (CAR), two rate three color marker (trTCM), compliant with RFC 2698.
Traffic shaping Port-based traffic shaping, queue-based traffic shaping
Congestion avoidance WRED, tail dropping
Congestion management Class of service (CoS), supporting SP+WFQ scheduling algorithms
HQoS Supported
ERPS ERPS V1/V2, Supported, Comply with ITU-T G.8032/Y.1344.
LAG Intra-board and inter-board LAG, compliant with IEEE 802.1ax.
MC-LAG Supported, compliant with IEEE 802.1ax.
MC-PW APS 1:1 protection compliant with ITU-T G.8131.
PW APS 1:1 protection compliant with ITU-T G.8131.
PW FPS 1:1 protection compliant with ITU-T G.8131.
Tunnel APS 1:1 protections compliant with ITU-T G.8131.
MRPS Not supported
Packet service protection against multiple fiber cuts Not supported
IGMP Snooping Supports protocol enabling in compliance with IGMPv1 and IGMPv2.
LLDP Not supported
Ethernet service OAM Supports Ethernet service OAM that complies with IEEE 802.1ag
NOTE:
Compliant with ITU-T Y.1731(ETH LM/DM), ITU-T G.8013 and ITU-T Y.1730.
Ethernet port OAM Not supported
MPLS OAM Not supported
MPLS-TP OAM Supported, compliant with ITU-T G.8013/Y.1731, ITU-T G.8113.1.
RMON Supported
Port flow control Not supported
Port mirroring Not supported
Inband DCN Supported
Functions and Features of the TNV6U210 Board (Regeneration)
Basic function Electrically regenerates optical signals at an electrical REG station.
Regeneration mode Unidirectional regeneration
Regeneration rate
  • OTU2
  • OTU2e
WDM specification Supports the DWDM specifications.
Tunable wavelength
  • Supports tunable wavelength optical modules that provide for 40 wavelengths tunable in the C band with 100 GHz channel spacing.
  • Supports tunable wavelength optical modules that provide for 80 wavelengths tunable in the C band with 50 GHz channel spacing.
FEC coding FEC, AFEC-2
NOTE:
AFEC-2 encoding is supported only when the board works in OTU2 mode.
OTN overhead
  • WDM-side OTU2 layer: supports SM overhead processing.
  • ODU2 layer: supports PM and TCM overhead processing.
  • ODU2 layer: supports non-intrusive monitoring of PM and TCM overheads.
Electrical-layer ASON Not supported
Optical-layer ASON Supported
Outband DCN Supports ESC communication.
Alarm and performance event monitoring
  • Supports the monitoring of BIP8 bytes (Bursty mode) to help locate line failures.
  • Monitors parameters such as the bias current, temperature, and optical power of the laser.
  • Monitors OTN alarms and performance events.
Dimensions (H x W x D)
  • 477.30 × 30.50 × 220.00 (mm)
  • 18.81 × 1.20 × 8.67 (in.)
Weight
  • 3.12 kg
  • 6.88 lb.

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Item TNV6U210
Functions and Features of the TNV6U210 Board (OTN Line)
Backplane capacity The total backplane bandwidth is 100 Gbit/s.
WDM specification Supports the DWDM specifications.
Tunable wavelength
  • Supports tunable wavelength optical modules that provide for 40 wavelengths tunable in the C band with 100 GHz channel spacing.
  • Supports tunable wavelength optical modules that provide for 80 wavelengths tunable in the C band with 50 GHz channel spacing.
FEC coding FEC, AFEC-2
NOTE:
AFEC-2 encoding is supported only when the board works in OTU2 mode.
Line modulation format NRZ
OTN overhead protocol Supports the OTN frame format and overhead processing defined by ITU-T G.709.
OTN overhead
  • WDM-side OTU2 layer: supports SM overhead processing.
  • ODUk (k=0, 1, 2) layer: supports PM and TCM overhead processing.
  • ODUk (k=0, 1, 2) layer: supports non-intrusive monitoring of PM and TCM overheads.
  • ODUflex layer: supports PM overhead processing.
  • ODUflex layer: supports non-intrusive monitoring of PM overheads.
Intra-board 1+1 protection Supported
NOTE:
Supports intra-board 1+1 protection when working with optical protection boards.
ODUk SNCP Supported
NOTE:
ODUk SNCP protection is not supported when packet services are cross-connected from the backplane.
Tributary SNCP Supported
Electrical-layer ASON Supported
Optical-layer ASON Supported
Physical clock Supported
NOTE:
  • When the ODU cross-connect granularity of an OTN line port is set to the maximum granularity supported by the port, physical clock synchronization is not supported. The physical clock can be used only after lower-order ODU cross-connections are configured.
  • When Board Working Mode is Line OTU2 Mode, parameter Frame Format of Clock Message of port 1 is GFP by default, and this parameter of other ports is HDLC by default. By default, only port 1 supports physical clocks. To enable other ports to support physical clocks, set this parameter of port 1 to HDLC first.
  • When Board Working Mode is Line OTU2 Mode, parameter Frame Format of Clock Message of port 1 is GFP by default, and this parameter of other ports is HDLC by default. By default, only port 1 supports physical clocks. To enable other ports to support physical clocks, set this parameter of port 1 to HDLC first.
  • Parameter Frame Format of Clock Message can be set to HDLC but not GFP for OTU1 services.
IEEE 1588v2 Supported
NOTE:
  • When Board Working Mode is Line OTU2 Mode, parameter Frame Format of Clock Message of port 1 is GFP by default, and this parameter of other ports is HDLC by default. By default, only port 1 supports IEEE 1588v2. To enable other ports to support IEEE 1588v2, set this parameter of port 1 to HDLC first.
  • Parameter Frame Format of Clock Message can be set to GFP or HDLC for OTU2 services. If the parameter of a port on the board is set to GFP, only the current port supports one IEEE 1588v2 channel, and other ports do not support IEEE 1588v2. If the parameter of all ports on the board is set to HDLC, a maximum of four IEEE 1588v2 channels are supported.
  • Parameter Frame Format of Clock Message can be set to HDLC but not GFP for OTU1 services, and a maximum of four IEEE 1588v2 channels are supported.
ITU-T G.8275.1 Supported
NOTE:
  • When Board Working Mode is Line OTU2 Mode, parameter Frame Format of Clock Message of port 1 is GFP by default, and this parameter of other ports is HDLC by default. By default, only port 1 supports G.8275.1. To enable other ports to support G.8275.1, set this parameter of port 1 to HDLC first.
  • Parameter Frame Format of Clock Message can be set to GFP or HDLC for OTU2 services. If the parameter of a port on the board is set to GFP, only the current port supports one G.8275.1 channel, and other ports do not support G.8275.1. If the parameter of all ports on the board is set to HDLC, a maximum of four G.8275.1 channels are supported.
  • Parameter Frame Format of Clock Message can be set to HDLC but not GFP for OTU1 services, and a maximum of four G.8275.1 channels are supported.
ITU-T G.8273.2 Supported
NOTE:
The board does not support ITU-T G.8273.2 when the system control board is U2CTU.
Outband DCN Supports communication over ESCs.
Test frame Not supported
PRBS Supports the PRBS function on the WDM side.
Latency measurement Supported
NOTE:
In 2.5G line mode, delay measurement cannot be configured for different optical ports on the same board at the same time. In 10G line mode, delay measurement can be configured for different optical ports on the same board at the same time.
Channel loopback
  • 10G line mode: ODUk (k = 0, 1, flex) channel loopbacks
  • 2.5G line mode: ODUk (k = 0) channel loopbacks
Port loopback Supports WDM Side Loopback
Alarm and performance event monitoring
  • Supports the monitoring of BIP8 bytes (Bursty mode) to help locate line failures.
  • Monitors parameters such as the bias current, temperature, and optical power of the laser.
  • Monitors OTN alarms and performance events.
Functions and Features of the TNV6U210 Board (SDH)
Backplane capacity The total backplane bandwidth is 80 Gbit/s.
Service processing VC-12, VC-3, VC-4, VC-4-4c, VC-4-16c, VC-4-64c
Overhead processing
  • Processes the section overheads of STM-16/STM-64 signals.
  • Supports the transparent transmission and termination of path overheads.
  • Supports the setting and query of the J0, J1, and C2 bytes.
  • Supports transparent transmission of DCC channels.
  • Supports ECC communication.
SDH SNCP Supported
Linear MSP Supported
Ring MSP Supports two-fiber bidirectional ring MSP
SDH ASON Supported
Physical clock Supports SDH clock synchronization.
Outband DCN Supported
Channel loopback Supports VC loopbacks.
Port loopback Supports Virtual Port loopbacks.
2M ASON Supported
NOTE:
Only supported when the 9800 M24 is used.
Alarm and performance event monitoring
  • Supports the monitoring of B1 bytes to help locate line faults.
  • Supports the monitoring of B2 bytes to help locate line faults.
Functions and Features of the TNV6U210 Board (Packet)
Service processing capability
  • 10G line mode: The maximum service processing capability of the board is 100 Gbit/s. If the total bandwidth of received services is greater than 100 Gbit/s, packets will be lost.
  • 2.5G line mode: The maximum service processing capability of the board is 25 Gbit/s. If the total bandwidth of received services is greater than 25 Gbit/s, packets will be lost.
TAG attribute Supports the following TAG attributes: tag aware, access, and hybrid.
QinQ Supports basic QinQ.
Ethernet data frame format IEEE 802.3, Ethernet II, IEEE 802.1Q, IEEE 802.1p
Maximum frame length for a port 9600 bytes.
Service type
  • Native E-Line services
  • Native E-LAN services
  • E-Line services carried by PWs (VPWS services)
  • E-LAN services carried by PWs (VPLS services)
Service bearing medium PW, QinQ
Native E-Line service type
  • Point-to-point transparently transmitted E-Line services
  • VLAN-based E-Line services (supporting VLAN tag switching)
  • QinQ-based E-Line services
Native E-LAN service type
  • E-LAN services based on Tag-Transparent (802.1d bridge)
  • E-LAN services based on C-Aware (802.1q bridge)
PW-carried E-Line service (VPWS) type
  • Port-based transparently transmitted E-Line services
  • VLAN-based E-Line services (supporting the adding, deleting, and switching of VLAN tags)
PW-carried E-LAN service (VPLS) type
  • VPLS services based on Tag-Transparent
  • VPLS services based on C-Aware
  • VPLS services based on S-Aware
MS-PW Supported
Diffserv Supported, compliant with RFC 2474 and RFC 2475.
Traffic classification
  • Supported simple traffic classification.
  • Supported complex traffic classification. The ACL rules are customized based on packet information.
Traffic policing Committed access rate (CAR), two rate three color marker (trTCM), compliant with RFC 2698.
Traffic shaping Port-based traffic shaping, queue-based traffic shaping
Congestion avoidance WRED, tail dropping
Congestion management Class of service (CoS), supporting SP+WFQ scheduling algorithms
HQoS Supported
ERPS ERPS V1/V2, Supported, Comply with ITU-T G.8032/Y.1344.
LAG Intra-board and inter-board LAG, compliant with IEEE 802.1ax.
MC-LAG Supported, compliant with IEEE 802.1ax.
MC-PW APS 1:1 protection compliant with ITU-T G.8131.
PW APS 1:1 protection compliant with ITU-T G.8131.
PW FPS 1:1 protection compliant with ITU-T G.8131.
Tunnel APS 1:1 protections compliant with ITU-T G.8131.
MRPS Not supported
Packet service protection against multiple fiber cuts Not supported
IGMP Snooping Supports protocol enabling in compliance with IGMPv1 and IGMPv2.
LLDP Not supported
Ethernet service OAM Supports Ethernet service OAM that complies with IEEE 802.1ag
NOTE:
Compliant with ITU-T Y.1731(ETH LM/DM), ITU-T G.8013 and ITU-T Y.1730.
Ethernet port OAM Not supported
MPLS OAM Not supported
MPLS-TP OAM Supported, compliant with ITU-T G.8013/Y.1731, ITU-T G.8113.1.
RMON Supported
Port flow control Not supported
Port mirroring Not supported
Inband DCN Supported
Functions and Features of the TNV6U210 Board (Regeneration)
Basic function Electrically regenerates optical signals at an electrical REG station.
Regeneration mode Unidirectional regeneration
Regeneration rate
  • OTU2
  • OTU2e
WDM specification Supports the DWDM specifications.
Tunable wavelength
  • Supports tunable wavelength optical modules that provide for 40 wavelengths tunable in the C band with 100 GHz channel spacing.
  • Supports tunable wavelength optical modules that provide for 80 wavelengths tunable in the C band with 50 GHz channel spacing.
FEC coding FEC, AFEC-2
NOTE:
AFEC-2 encoding is supported only when the board works in OTU2 mode.
OTN overhead
  • WDM-side OTU2 layer: supports SM overhead processing.
  • ODU2 layer: supports PM and TCM overhead processing.
  • ODU2 layer: supports non-intrusive monitoring of PM and TCM overheads.
Electrical-layer ASON Not supported
Optical-layer ASON Supported
Outband DCN Supports ESC communication.
Alarm and performance event monitoring
  • Supports the monitoring of BIP8 bytes (Bursty mode) to help locate line failures.
  • Monitors parameters such as the bias current, temperature, and optical power of the laser.
  • Monitors OTN alarms and performance events.
Dimensions (H x W x D)
  • 477.30 × 30.50 × 220.00 (mm)
  • 18.81 × 1.20 × 8.67 (in.)
Weight
  • 3.12 kg
  • 6.88 lb.

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